rt-thread/bsp/renesas/ra8m1-ek
CXSforHPU bb91502465
[drivers] Specifies the name of the drivers driver file
https://github.com/RT-Thread/rt-thread/pull/9420
2024-09-13 17:40:40 -04:00
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.settings [bsp][driver][renesas] Unified Renesas SCI driver 2024-04-18 20:21:59 -04:00
board [drivers] Specifies the name of the drivers driver file 2024-09-13 17:40:40 -04:00
docs/picture [libcpu][renesas]add cortex-m85 && ek-ra8m1 adapt 2023-10-31 15:09:17 +08:00
ra [libcpu][renesas]add cortex-m85 && ek-ra8m1 adapt 2023-10-31 15:09:17 +08:00
ra_cfg [libcpu][renesas]add cortex-m85 && ek-ra8m1 adapt 2023-10-31 15:09:17 +08:00
ra_gen [libcpu][renesas]add cortex-m85 && ek-ra8m1 adapt 2023-10-31 15:09:17 +08:00
script [libcpu][renesas]add cortex-m85 && ek-ra8m1 adapt 2023-10-31 15:09:17 +08:00
src [libcpu][renesas]add cortex-m85 && ek-ra8m1 adapt 2023-10-31 15:09:17 +08:00
.config [bsp][driver][renesas] Unified Renesas SCI driver 2024-04-18 20:21:59 -04:00
.cproject [libcpu][renesas]add cortex-m85 && ek-ra8m1 adapt 2023-10-31 15:09:17 +08:00
.gitignore [libcpu][renesas]add cortex-m85 && ek-ra8m1 adapt 2023-10-31 15:09:17 +08:00
.ignore_format.yml [libcpu][renesas]add cortex-m85 && ek-ra8m1 adapt 2023-10-31 15:09:17 +08:00
.project [libcpu][renesas]add cortex-m85 && ek-ra8m1 adapt 2023-10-31 15:09:17 +08:00
.secure_azone [libcpu][renesas]add cortex-m85 && ek-ra8m1 adapt 2023-10-31 15:09:17 +08:00
.secure_xml [libcpu][renesas]add cortex-m85 && ek-ra8m1 adapt 2023-10-31 15:09:17 +08:00
Kconfig bsp中option env语句替换为新语句,并同步更新了source "$xxx"语句 2024-06-20 14:40:42 +08:00
README.md Update ra8 readme. 2024-04-11 18:50:23 -04:00
README_EN.md [bsp][hmi-board] Optimize hardware driver configuration and trim the project file volume 2024-02-03 16:47:32 +08:00
SConscript [libcpu][renesas]add cortex-m85 && ek-ra8m1 adapt 2023-10-31 15:09:17 +08:00
SConstruct [bsp][renesas] Optimize startup check script structure 2024-01-29 17:38:14 +08:00
buildinfo.gpdsc [libcpu][renesas]add cortex-m85 && ek-ra8m1 adapt 2023-10-31 15:09:17 +08:00
configuration.xml [bsp][driver][renesas] Unified Renesas SCI driver 2024-04-18 20:21:59 -04:00
project.uvoptx [bsp] update projects 2024-03-21 11:23:29 +08:00
project.uvprojx [bsp][driver][renesas] Unified Renesas SCI driver 2024-04-18 20:21:59 -04:00
rtconfig.h [bsp] update projects 2024-03-21 11:23:29 +08:00
rtconfig.py [bsp][renesas] Added the file change detection script 2024-01-23 16:57:03 +08:00
template.uvoptx [bsp][renesas]使用文档添加fsp说明,更新下载选项 2023-11-23 17:21:07 +08:00
template.uvprojx [bsp][renesas]使用文档添加fsp说明,更新下载选项 2023-11-23 17:21:07 +08:00

README_EN.md

EK-RA8M1 BSP Instruction

中文|English

Introduction

Prepare for an exhilarating journey into the realm of the EK-RA8M1 development board! This guide is your treasure map, leading you to a trove of knowledge about the Board Support Package (BSP). The Quick Start section is your launchpad, propelling developers into action with the BSP, and getting RT-Thread operational on the development board faster than a speeding bullet.

Heres a sneak peek of the adventure that awaits:

• A captivating exploration of the development board

• A practical and user-friendly BSP Quick Start Guide

Hardware

The EK-RA8M1 evaluation board, developed based on the Renesas RA8M1 MCU, is a handy tool that allows users to easily evaluate the features of the RA8 MCU group. With flexible software package and IDE configurations, its a breeze to develop embedded system applications.

Heres a sneak peek of what the front of the development board looks like:

The board comes with some commonly used on-board resources. Lets dive in and explore!

  • MCU: R7FA8M1AH, 480MHz, Arm®Cortex®-M85, 2MB Flash, 1MB SRAM
  • Jlink OB
  • OSPI FLASH64MX8
  • USB-Host
  • USB-Device
  • CANFD
  • ethernet
  • 2个PMOD+Arduino+micro BUS interface
  • 3 user LED
  • 3 button: 2 user button, 1 reset button

More Details

Peripheral Condition

Each peripheral supporting condition for this BSP is as follows:

On-chip Peripheral Drivers Support Remark
UART Support UART9 is the default log output port.
GPIO Support

Instructions for Use

The instructions for use are divided into the following two sections:

• Quick Start

This section is a user guide for newcomers to RT-Thread. By following simple steps, you can run the RT-Thread operating system on this development board and see the experimental results.

• Advanced Use

This section is for developers who want to enable more development board resources on the RT-Thread operating system. By using the ENV tool to configure the BSP, you can enable more on-board resources and achieve more advanced functions.

Quick Start

This BSP currently only provides an MDK5 project. The following tutorial takes the MDK5 development environment as an example to introduce how to run the system.

Compile and Download

• Compile: Double-click the project.uvprojx file to open the MDK5 project and compile the program.

• Download: Click the Debug button in MDK to download and debug

Running results

After the program is downloaded successfully, the system will automatically run and print system information.

Connect the corresponding serial port of the development board to the PC, open the corresponding serial port (115200-8-1-N) in the terminal tool, reset the device, and you can see RT-Threads output information. Enter the help command can view the commands supported by the system.

initialize rti_board_start:0 done

 \ | /
- RT -     Thread Operating System
 / | \     5.1.0 build Oct 30 2023 16:14:05
 2006 - 2022 Copyright by RT-Thread team
do components initialization.
initialize rti_board_end:0 done
initialize finsh_system_init:0 done

Hello RT-Thread!
msh >

Entry function

The entry function of the application layer is in bsp\renesas\ra8m1-ek\src\hal_entry.c in void hal_entry(void). Source files that you created can be placed directly in the src directory.

void hal_entry(void)
{
    rt_kprintf("\nHello RT-Thread!\n");

    while (1)
    {
        rt_pin_write(LED3_PIN, PIN_HIGH);
        rt_thread_mdelay(500);
        rt_pin_write(LED3_PIN, PIN_LOW);
        rt_thread_mdelay(500);
    }
}

Advanced Features

Resources & Documents

ENV Configuration

• How to use the ENV tool: RT-Thread env tool user manual.

This BSP only enables the function of UART9 by default. If you're looking for more advanced functions such as components and software packages, ENV tool for configuration is available.

The steps are as follows:

  1. Open the env tool under bsp.
  2. Enter the menuconfig command to configure the project, and save and exit after configuration.
  3. Enter the pkgs --update command to update the software package.
  4. Enter the scons --target=mdk5 command to regenerate the project.

FSP Configuration

The current repository's BSP is configured with the minimum footprint enabled by default. Users can enable peripheral configurations through the following steps:

  1. Open the env tool in the BSP directory and use the scons --target=mdk5 command to generate an MDK project.
  2. Open the project.uvprojx file in the BSP directory, select the Software Components configuration in the top navigation bar, and open the configuration button next to RA Configuration under Flex Software. This operation will automatically detect the installed FSP version on the current computer. After selecting the specified version, enter FSP.
  3. Upon entering FSP, pre-configured peripherals are already present. Click the Generate Project Content button to generate the required driver files.
  4. Return to env, enable the necessary peripheral configurations, save, and exit.

Contribute the Code

If youre interested in the EK-RA8M1 and have some cool projects youd like to share with everyone, wed love for you to contribute your code! You can check out how to contribute to RT-Threads code. Lets make something awesome together!